Apparatus and method for hydroconversion

What is claimed is: 1. A grid plate assembly for use in a hydroconversion reactor, comprising: a grid plate having a top and a bottom dividing the hydroconversion reactor into a zone above the grid plate top and a zone below the grid plate bottom; a plurality of tubular risers extending through the grid plate; wherein each tubular riser comprises an upper section extending above the grid plate top and closed with a bubble cap and a lower section extending below the grid plate bottom and having an open end, at least one laterally placed vertical slot and at least one laterally placed opening, wherein the at least one laterally placed vertical slot and the at least one laterally placed opening in each tubular riser are positioned at variable distances from the grid plate bottom such that an inclined liquid level in the zone below the grid plate bottom is maintained between the laterally placed vertical slot and the at least one laterally placed opening, wherein the at least one laterally placed vertical slot extends from the open end of the lower section for a length ranging from ⅛ to ½ of the length of the lower section, and wherein the laterally placed opening is located from 1 to 5″ below the grid plate bottom with a shortest dimension ranging from 1/16 to ½ of a diameter of the open bottom end of the tubular riser. 2. The grid plate assembly of claim 1 , wherein the laterally placed opening in each tubular riser has a shortest dimension ranging from ⅛ to ½″. 3. The grid plate assembly of claim 1 , wherein the upper section of each tubular riser comprises a constriction for gas liquid mixing in the tubular riser. 4. The grid plate assembly of claim 3 , further comprising a check valve located above the constriction in the upper section of each tubular riser. 5. The grid plate assembly of claim 4 , wherein the check valve in each tubular riser comprises a steel ball and a valve seat. 6. The grid plate assembly of claim 1 , wherein the bubble cap is tubular in shape. 7. The grid plate assembly of claim 1 , wherein the bubble cap is bell shaped. 8. The grid plate assembly of claim 1 , wherein each tubular riser has a plurality of laterally placed openings of equal or different sizes. 9. The grid plate assembly of claim 1 , wherein each tubular riser has a plurality of laterally placed openings spaced along a vertical length of the riser. 10. The grid plate assembly of claim 1 , wherein the tubular riser has a plurality of laterally placed openings spaced equidistant circumferentially about the riser. 11. The grid plate assembly of claim 1 , wherein each tubular riser comprises an inner pipe and an outer pipe defining an annular opening between the inner pipe and the outer pipe as the open bottom end for ingress of hydrogen gas and hydrocarbon feedstock. 12. The grid plate assembly of claim 1 , wherein the plurality of tubular risers each having at least a laterally placed opening with at least two tubular risers having laterally placed openings of different sizes.